A stainless steel equipment is experiencing pitting corrosion in a chemical plant. The equipment is exposed to a solution of 10% sulfuric acid and 5% chloride ions. Recommend a method to prevent pitting corrosion.
The "Principles" section of the 2015 volume is famously concise. It distills corrosion into four essential domains: The "Principles" section of the 2015 volume is
The book begins with the Nernst equation. A typical solved problem asks: "Calculate the reversible potential for a zinc electrode in a solution of 0.01 M Zn²⁺ at 25°C." The "Principles" section of the 2015 volume is
The text explains why stainless steel is "stainless" only until chlorides arrive. Solved problems include calculating the pitting potential (Eₚᵢₜ) from cyclic polarization scans. The "Principles" section of the 2015 volume is
Most engineering books provide theory. This one provides . Here is a direct excerpt of the type of problem you will find in the 2015 PDF:
Detailed breakdowns of the four essential elements of a corrosion cell: anode, cathode, electrolyte, and electrical path. Comprehensive Coverage of Corrosion Types
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